At the age of 23, I died in a car accident. My head hit the inside of my car so hard that part of my brain was pulverized into liquid brain matter, and parts of fractured skull were driven into my brain. How long we sat broken and bleeding in my car, no one will ever know. As my body sat crumpled in my wrecked car on a frigid December morning, my spirit left this world. Against all odds help arrived. The jaws of life bit through already mangled metal and glass to allow access to my lifeless body. First priority with me was to try and restart my heart. Without a heartbeat, nothing else mattered. I would survive my horrific injuries. Incredibly, this turn-about in my prognosis all happened overnight; the doctors and nurses could not explain why. Then, the most revelatory thing of all occurred and it became all too obvious that a power greater than modern medicine was at work, helping me, bringing me out of the worst of my injuries, the unfathomable power of prayer.
Jack Harrington finds himself unexpectedly back home, in Wellfleet, Massachusetts, after his last tour of duty in Afghanistan... [R]eturning home for his father’s funeral, Jack left one war zone behind and unknowingly stumbled into a new one, one that threatened the existence of not only his home town, but all of Cape Cod." -- cover, page 4
Differential equations are the basis for models of any physical systems that exhibit smooth change. This book combines much of the material found in a traditional course on ordinary differential equations with an introduction to the more modern theory of dynamical systems. Applications of this theory to physics, biology, chemistry, and engineering are shown through examples in such areas as population modeling, fluid dynamics, electronics, and mechanics.? Differential Dynamical Systems begins with coverage of linear systems, including matrix algebra; the focus then shifts to foundational material on nonlinear differential equations, making heavy use of the contraction-mapping theorem. Subsequent chapters deal specifically with dynamical systems concepts?flow, stability, invariant manifolds, the phase plane, bifurcation, chaos, and Hamiltonian dynamics. This new edition contains several important updates and revisions throughout the book. Throughout the book, the author includes exercises to help students develop an analytical and geometrical understanding of dynamics. Many of the exercises and examples are based on applications and some involve computation; an appendix offers simple codes written in Maple?, Mathematica?, and MATLAB? software to give students practice with computation applied to dynamical systems problems.
Offering unparalleled coverage of infectious diseases in children and adolescents, Feigin & Cherry’s Textbook of Pediatric Infectious Diseases 8th Edition, continues to provide the information you need on epidemiology, public health, preventive medicine, clinical manifestations, diagnosis, treatment, and much more. This extensively revised edition by Drs. James Cherry, Gail J. Demmler-Harrison, Sheldon L. Kaplan, William J. Steinbach, and Peter J. Hotez, offers a brand-new full-color design, new color images, new guidelines, and new content, reflecting today’s more aggressive infectious and resistant strains as well as emerging and re-emerging diseases Discusses infectious diseases according to organ system, as well as individually by microorganisms, placing emphasis on the clinical manifestations that may be related to the organism causing the disease. Provides detailed information regarding the best means to establish a diagnosis, explicit recommendations for therapy, and the most appropriate uses of diagnostic imaging. Features expanded information on infections in the compromised host; immunomodulating agents and their potential use in the treatment of infectious diseases; and Ebola virus. Contains hundreds of new color images throughout, as well as new guidelines, new resistance epidemiology, and new Global Health Milestones. Includes new chapters on Zika virus and Guillain-Barré syndrome. Expert ConsultTM eBook version included with purchase. This enhanced eBook experience allows you to search all of the text, figures, and references from the book on a variety of devices.
Integrative Medicine for Depression A disease that has long plagued humankind, depression is debilitating. Despite the frequency with which they’re prescribed, drugs alone don’t always provide relief, and often have side effects that limit effectiveness. There’s new hope for treatment, as emerging evidence suggests depression can be triggered by biochemical imbalances and nutritional deficiencies. In the newly updated edition of Integrative Medicine for Depression, mental health expert Dr. James M. Greenblatt emphasizes the treatment of depression using an integrative regimen that first seeks to understand the whole person. This book offers fresh new possibilities for those who suffer from depression. Incorporating decades of research and treatment in this groundbreaking work, Dr. Greenblatt explains: ■ The biologic mechanisms that cause depression ■ Why previous treatments may have failed ■ Nutritional approaches to improve mood ■ Ways to minimize the side effects of antidepressants ■ Strategies for a personalized supplement program
In 1828 Edward Mitchell was the first student of African descent to graduate from Dartmouth College, more than thirty-five years before any other Ivy League school admitted a black student. This book tells Mitchell's life story with the help of a recently rediscovered trove of his college essays, notes on his religious conversion, and hand-copied versions of his sermons. Born and raised in the French slave colony of Martinique, Mitchell immigrated to the United States and came of age in Philadelphia, where he broke bread with the city's African American clerics and civic leaders. The Dartmouth trustees initially denied Mitchell admission but yielded to unified student protest. After his graduation, Mitchell continued his northward journey to serve as a Baptist preacher and evangelist in the pulpits of northern New England. His religious odyssey concluded in Lower Canada, where he was remembered as "the most profound theologian ever settled." During his travels throughout the Atlantic world in an age of revolution and religious revival, Mitchell encountered the dominant social, economic, and political realities of his time. Although long celebrated as the inspiration for Dartmouth's legacy of educating men and women of African ancestry, Mitchell's life story remained unknown for almost two centuries. This book, which embodies history as recovery, is a testament to the authors' desire to know the man behind the story.
Principles of Applied Mathematics provides a comprehensive look at how classical methods are used in many fields and contexts. Updated to reflect developments of the last twenty years, it shows how two areas of classical applied mathematics spectral theory of operators and asymptotic analysis are useful for solving a wide range of applied science problems. Topics such as asymptotic expansions, inverse scattering theory, and perturbation methods are combined in a unified way with classical theory of linear operators. Several new topics, including wavelength analysis, multigrid methods, and homogenization theory, are blended into this mix to amplify this theme.This book is ideal as a survey course for graduate students in applied mathematics and theoretically oriented engineering and science students. This most recent edition, for the first time, now includes extensive corrections collated and collected by the author.
Feigin and Cherry's Textbook of Pediatric Infectious Diseases helps you put the very latest knowledge to work for your young patients with unparalleled coverage of everything from epidemiology, public health, and preventive medicine through clinical manifestations, diagnosis, treatment, and much more. Ideal for all physicians, whether in an office or hospital setting, Feigin and Cherry’s equips you with trusted answers to your most challenging clinical infectious disease questions. Meet your most difficult clinical challenges in pediatric infectious disease, including today’s more aggressive infectious and resistant strains as well as emerging and re-emerging diseases, with unmatched, comprehensive coverage of immunology, epidemiology, public health, preventive medicine, clinical manifestations, diagnosis, treatment, and much more. Find the answers you need quickly thanks to an organization both by organ system and by etiologic microorganism, allowing you to easily approach any topic from either direction.
Thoroughly updated for its Second Edition, Non-Hodgkin Lymphomas is the definitive textbook on the biology, diagnosis, staging, and treatment of all forms of non-Hodgkin lymphomas. With backgrounds in medical and radiation oncology, molecular biology, and pathology, the editors and contributors provide an international, multidisciplinary approach to the topic. This edition is the first text using the new World Health Organization classification of non-Hodgkin lymphomas. The book offers complete coverage of the most current techniques for diagnosis, staging, and treatment, the approach to specific types of lymphoma, and special problems common to the management of patients with these disorders.
This book explains the foundation of approximate Bayesian computation (ABC), an approach to Bayesian inference that does not require the specification of a likelihood function. As a result, ABC can be used to estimate posterior distributions of parameters for simulation-based models. Simulation-based models are now very popular in cognitive science, as are Bayesian methods for performing parameter inference. As such, the recent developments of likelihood-free techniques are an important advancement for the field. Chapters discuss the philosophy of Bayesian inference as well as provide several algorithms for performing ABC. Chapters also apply some of the algorithms in a tutorial fashion, with one specific application to the Minerva 2 model. In addition, the book discusses several applications of ABC methodology to recent problems in cognitive science. Likelihood-Free Methods for Cognitive Science will be of interest to researchers and graduate students working in experimental, applied, and cognitive science.
Co-author J.A. Yorke developed an array of tools to help visualize the properties of dynamical systems, while Yorke found it useful to combine these various basic tools into one single package: Dynamics. The program together with this manual provides an introduction to and an overview of fundamental, sophisticated tools and numerical methods together with many simple examples. All numerical methods described in this handbook are implemented in the program, which is capable of, among others: iterating maps and solving differential equations; plotting trajectories; featuring an array of simple commands; printing a created picture in resolution higher than that of the screen. Requires a UNIX workstation running X11 graphics or a PC.
A look inside the world of “quants” and how science can (and can’t) predict financial markets: “Entertaining and enlightening” (The New York Times). After the economic meltdown of 2008, Warren Buffett famously warned, “beware of geeks bearing formulas.” But while many of the mathematicians and software engineers on Wall Street failed when their abstractions turned ugly in practice, a special breed of physicists has a much deeper history of revolutionizing finance. Taking us from fin-de-siècle Paris to Rat Pack–era Las Vegas, from wartime government labs to Yippie communes on the Pacific coast, James Owen Weatherall shows how physicists successfully brought their science to bear on some of the thorniest problems in economics, from options pricing to bubbles. The crisis was partly a failure of mathematical modeling. But even more, it was a failure of some very sophisticated financial institutions to think like physicists. Models—whether in science or finance—have limitations; they break down under certain conditions. And in 2008, sophisticated models fell into the hands of people who didn’t understand their purpose, and didn’t care. It was a catastrophic misuse of science. The solution, however, is not to give up on models; it’s to make them better. This book reveals the people and ideas on the cusp of a new era in finance, from a geophysicist using a model designed for earthquakes to predict a massive stock market crash to a physicist-run hedge fund earning 2,478.6% over the course of the 1990s. Weatherall shows how an obscure idea from quantum theory might soon be used to create a far more accurate Consumer Price Index. The Physics of Wall Street will change how we think about our economic future. “Fascinating history . . . Happily, the author has a gift for making complex concepts clear to lay readers.” —Booklist
The Harrisburg Telegraph says: “…an unique and authoritative book, The Story of the Battles at Gettysburg” will arouse great interest among military men throughout the country.” It is not generally known that the three-day battle of Gettysburg, one of the most important and significant engagements of the Civil War, is included in the course of training of student officers in practically all the European war colleges as an outstanding example of tactics and strategy. Once a year the students of the West Point Military Academy spend several days at Gettysburg in studying the battle problems during the first three days of July 1863. The outstanding features to the military, are the maps of the battlefield…these maps are drawn to scale with careful fidelity and the position of each regiment and branch of service is shown every hour of the day at different stages in the progress of the battles.
Includes Civil War Map and Illustrations Pack - 224 battle plans, campaign maps and detailed analyses of actions spanning the entire period of hostilities. “For a comprehensive, readable, insightful account of the Civil War from one of its most important and controversial generals, few contemporary memoirs match the power and detail of Longstreet’s From Manassas to Appomattox. “The reputation of Confederate General James Longstreet-second-in-command to and intimate friend of Robert E. Lee-has undergone dramatic swings over the course of history. Revered by his men and respected by his fellow officers during the American Civil War, Longstreet became one of the Confederacy’s most visible scapegoats shortly after the war’s end. From Manassas to Appomattox is Longstreet’s memoir of the war. He recounts his participation in some of its most important battles-Manassas, Antietam, Chickamauga, and, most significantly from the standpoint of his reputation, Gettysburg. While some have argued that Longstreet did not comply efficiently with Robert E. Lee’s orders at Gettysburg, historians have concluded that the primary responsibility for the Confederate defeat on the Pennsylvania battlefield lies with Lee. “Longstreet’s memoir covers the full range of his life and wartime experiences, from his early years as a boy in the antebellum south to his appointment as a cadet at West Point to his command of troops in the Mexican War. He devotes a full chapter to an assessment of his friend and commander Robert E. Lee and nearly four chapters to the Battle of Gettysburg. He details disagreements with his fellow officers and offers appraisals of his Union counterparts. He frankly recounts how he considered offering his “relief from service” on more than one occasion. And, of course, Longstreet offers his perspective on the Confederate surrender to Union forces at Appomattox Court House, Virginia, in April 1865."-Print Edition
The book treats the theory of attractors for non-autonomous dynamical systems. The aim of the book is to give a coherent account of the current state of the theory, using the framework of processes to impose the minimum of restrictions on the nature of the non-autonomous dependence. The book is intended as an up-to-date summary of the field, but much of it will be accessible to beginning graduate students. Clear indications will be given as to which material is fundamental and which is more advanced, so that those new to the area can quickly obtain an overview, while those already involved can pursue the topics we cover more deeply.
The history of how computers spread to over 20 nations globally in less than six decades, exploring economic, political, social and technological reasons and consequences. It is based on extensive research into primary and secondary sources, and concludes with a discussion of implications for key players in the globalized economy.
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