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This is the story of how Scott T. Hoag, former Team Mustang Customization Manager, marshaled resources within the Ford Motor Company to produce two legendary nameplates, the 2001 Bullitt and 2003/04 Mach 1 Mustangs. This narrative represents the passion, vision, and focus that a long-time enthusiast engineer brought to the table. The end results are two special feature cars that gained strong followings among the Ford Mustang faithful.
Tired of the winter, Jimmy wishes for a little excitement and, to his dismay, gets it.
Why do many people enjoy risky activities--skydiving, bullfighting, or fast driving--that cause fear in others? Every normal human being seems to need excitement at times, yet for years this need remained largely unstudied. Now a professor of psychology explains why we experience the need for excitement at various times and what happens when excitement-seeking goes wrong.
Jack Holder was at Pearl Harbor, December 7, 1941. This his story of his adventures during WWII. He served in the Navy in the Pacific as well as the Atlantic during the war.
Why do we slow down to look at car accidents? Why would rich people shoplift? What draws people to parachuting, hooliganism, or sadistic sex? These are just some of the questions and conundrums Apter investigates in a fascinating study of our paradoxial appetite for danger and risk-taking. Danger: Our Quest for Excitement explains how even in dangerous situations (often because of them!) anxiety becomes excitement and fear, exhilaration--transforming the horrifying into the heavenly. An intellectual tour de force, Danger throws light on a critically important but often neglected force of human nature and culture.
Alice Raikes wants to escape. Her whole life, she expected something important to happen, but she has a dead end job, lives in Texas, and is transgender to boot. Things are not going well. When the sun goes out, her first response is: "Finally." Five minutes later, the sun switches back on, and everybody acts like nothing happened. Only Alice and her friends remember the Five Minute Darkness, but they cannot explain it. When Alice discovers a mysterious silver sphere, it turns out to be an Artifact of Doom that puts her and her friends on a collision course with the mysterious Five, who have manipulated history and have a grudge against them -- for reasons Alice and her friends are unaware. Complicating things is a madwoman named Katherine who wants to kill every version of herself in existence, because reasons. Little does anyone realize the Five Minute Darkness is symptomatic of a bigger problem created by the Five, which threatens to tear their universes apart. It figures Alice's One Great Thing would be the End of the World. "Excitement, Adventure, and Really Wild Things" is Book One in the Navigator series, a sci-fi superhero space opera fantasy. (Phew!) Starting from a world similar (but not identical) to our own, it introduces our luckless "heroes" and shoves them face first into a cosmos where time travel, gender-bending, and parallel universes are par for the course. It also has an unhealthy obsession with the number five. It is anti-authoritarian, a little bit queer, and laced with geek humor.
Ocean structures, including ships, boats, piers, docks, rigs and platforms, are subject to fair weather wind and waves, as well as violent storms. A scientific analysis of these structures, under varying conditions, requires a mix of civil engineering, physics and applied mathematics. Chapters by experts in these fields are presented which explore the nonlinear responses of ocean structures to stochastic forcing. Theoretical methods calculate aspects of time, frequency and phase space responses. Probabilities governed by stochastic differential equations arc investigated directly or through moment correlations, such as power spectra. Calculations can also involve level crossing statistics and first passage times. Tiffs book will help scientists study stochastic nonlinear equations and help engineers design for short term survivability of structures in storms and long life in the face of everyday fatigue.
Relaxation phenomena of excited molecular states are abundant in all nature. They mediate such key processes as photochemical reactions or even the pathways of ordinary chemical reactions. However, for a long time the main research in electronic relaxation processes was concerned with anorganic solids, in part because of their great technological importance (photography, semiconductors ... ) in part also because these compounds were the "workhorses" of the solid state physicists. In the last 30 years, there was a steadily increasing interest in organic molecular systems, first in molecular crystals and later in all forms of molecular solids (glasses, polymers, membranes, ... ). The present volume combines papers on quite different types of relaxation phenomena: the type of solid studied, the electronic states involved, the physical processes responsible for the relaxations are all different. Nevertheless, after reading this book, a more clear and complete picture of the phenomenon "relaxa tion" emerges that proves that this volume is more than just a collection of individual articles. The volume starts with the paper "Spin-lattice and spin-spin relaxation in photo-excited triplet states in molecular crystals" by Jan Schmidt. Even in these seemingly simple systems of isolated guest molecules in a single crystal host, the relaxation phenomena are quite involved and a very thorough investigation is necessary to find the key relaxation processes. The end of the article provides a bridge to the following paper: it treats interactions of two molecules (dimers), where resonant interactions become important and lead to new, characteristic relaxation processes.
Excited State Lifetime Measurements attempts to assist in clarifying and unifying the many characteristics and definitions of excited state lifetime measurements. The contents of this book are derived from a series of lectures presented to a research group in the University of New Mexico in 1967. The relevance as well as the methods and measurements of data treatment of excited state lifetimes are featured in this book. The first three chapters provide a brief discussion on concepts and applications of excited state lifetime measurements. Experimental methods and systems are also introduced in these chapters. Chapter 4 delves into more complex systems (serial decay kinetics and resonance energy transfer) while Chapter 5 focuses on the method of least squares fitting, its uses, and misuses. Chapters 6 to 8 mainly discuss the convolution integral and its different applications while Chapter 9 gives a more detailed presentation of instrumentation. The last two chapters discuss special errors and approaches to new methodologies regarding the study of the excited state lifetime measurements. The book will be useful to students and scientists including analytical chemists, photochemists, photobiologists, spectroscopists, and physicists.
The Formation and Decay of Excited Species