In this one-of-a-kind "how-to" guide, Joseph Hooper and Aaron Zalewski provide step-by-step instructions for generating large monthly cash returns from almost any stock investment—while at the same time decreasing the risk of stock ownership. Filled with in-depth insights and proven techniques, this book is the definitive, rule-based guide to covered calls and calendar LEAPS spreads.
An all-star team of trading experts describe an array of proven charting techniques to bolster any portfolio *Purchase includes a 30-day free trial of Advanced Charting Platinum Selections software and generate returns of up to 3 percent per day.* There are over 175 recognized technical indicators that have been developed by traders, mathematicians and chartists to help traders make more accurate predictions about the price movements of individual securities, asset classes and the market as a whole. These technical indicators are never used alone but applied in various combinations. Developed and tested over many years by the authors, the highly reliable strategies described in this book combine a variety of charting techniques, which, when used in conjunction, have been shown to yield extremely accurate predictions about a stock's movements through the four cyclical phases of Birth, Momentum, Exhaustion and Death. You get powerful strategies, using a range of technical indicators, guaranteed to significantly improve your ability to more accurately—and profitably—time buy, hold and sell decisions The material in this book is currently required reading for the authors' prestigious Compound Stock Earnings (CSE) charting course Includes a special link to the main CSE website where you'll find a treasure trove of additional content, updates, and instructional videos and podcasts Provides valuable insights and information about the Covered Call approach to trading, a style about which Joseph R. Hooper is an internationally recognized expert
Hermann Joseph Muller (1890-1967) was a member of the early genetics group at Columbia University that developed the chromosome theory of inheritance. T. H. Morgan received the Nobel Prize in Medicine and Physiology for this work in 1934, and Muller, his student, received the Nobel Prize in 1946 for his discovery of radiation-induced mutation. The Modern Concept of Nature: Essays on Theoretical Biology by H. J. Muller, deals with Muller's major contributions to the theory of the gene, the induction of mutations, the principles of genetic load, and the neo-Darwinian theory of evolution. These essays contributed to the modern outlook of biology, and they are important to the historian and the biologist who wish to trace the evolution of scientific concepts or to read, first hand, the papers which laid the basis for the major portion of our genetic knowledge. Muller's writings extended beyond contributions to technical journals. He was an active critic of social abuse of science; he advocated eugenic programs based on free choice; and he played a major role in the reform of high school biology. Muller's social views were published in magazines and journals which are accessible to scholars more than to the lay reader or student. They have been collected in a companion volume, Man's Future Birthright: Essays in Science and Humanity by H. J. Muller, also published by State University of New York Press, to show how extensively he thought our lives are affected by radiation, evolution, modern medicine, and gene theory. He attempted to alert humanity to the dangers of neglect and abuse of their genetic heritage. He also used humanistic values to urge mankind to improve itself, to foster cooperativeness, to increase health and intelligence, and to adopt an evolutionary outlook. The relation of science to values is often neglected because of the inaccessibility of the written contributions of important scientists. To read Muller's major essays in these two areas is an important way to evaluate a scientist's career, his maturation of ideas, and his developing application of science to society.
Two-fluid dynamics is a challenging subject rich in physics and prac tical applications. Many of the most interesting problems are tied to the loss of stability which is realized in preferential positioning and shaping of the interface, so that interfacial stability is a major player in this drama. Typically, solutions of equations governing the dynamics of two fluids are not uniquely determined by the boundary data and different configurations of flow are compatible with the same data. This is one reason why stability studies are important; we need to know which of the possible solutions are stable to predict what might be observed. When we started our studies in the early 1980's, it was not at all evident that stability theory could actu ally work in the hostile environment of pervasive nonuniqueness. We were pleasantly surprised, even astounded, by the extent to which it does work. There are many simple solutions, called basic flows, which are never stable, but we may always compute growth rates and determine the wavelength and frequency of the unstable mode which grows the fastest. This proce dure appears to work well even in deeply nonlinear regimes where linear theory is not strictly valid, just as Lord Rayleigh showed long ago in his calculation of the size of drops resulting from capillary-induced pinch-off of an inviscid jet.
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