This concise and accessible book is a synthesis of the basic principles of the contemporary realistic neopragmatist philosophy of science. It discusses the aim of basic science, the methods of scientific discovery, the criteria for scientific criticism, and the nature of scientific explanation. Included is a description of a newly emergent specialty called computational philosophy of science, in which computerized discovery systems create and test new scientific theories. It also examines the essentials of the underlying realistic neopragmatist philosophy of language that has made philosophy of science a coherent and analytical discipline, and that has given new meaning to such key terms as "theory", "observation" and "explanation".
POPEYE: A CULTURAL BARBARIAN is a memoir dubbed "Forest Gump meets Jack Kerouac" aboutHick's colorful life and growing struggles with addictionand suicide. POPEYE time travels from his Irish CatholicMidwestern upbringing, raucous college years, Europeancultural barbarianism, life in Poland behind the IronCurtain, raising a family out West, the Great Recession,to his current mental health issues, alcoholism, andhomelessness. POPEYE is not meant to cure or caution,but merely tells the tale of one man's life in his own wordsas if he were sitting on the bar stool next to you.
History of twentieth-century philosophy of science opens with an introduction to contemporary philosophy of science as of the beginning of the twenty-first century, and describes the new specialty of computational philosophy of science. Seven chapters describing the philosophies of several major philosophers of science follow this introductory chapter. These major philosophers include Ernst Mach and Pierre Duhem, Rudolf Carnap and Willard Van Quine, Werner Heisenberg, Karl Popper, Thomas Kuhn and Paul Feyerabend, Norwood Russell Hanson, and Paul Thagard and Herbert Simon. The book concludes with a large bibliography.
Thomas Dunlap shows how bird guides have changed with science and popular interest and how birding's twin activities, conservation and recreation, have over the last 120 years shaped our understanding of nature and supported its preservation as part of the nation and our lives.
This concise and accessible book is a synthesis of the basic principles of the contemporary realistic neopragmatist philosophy of science. It discusses the aim of basic science, the methods of scientific discovery, the criteria for scientific criticism, and the nature of scientific explanation. Included is a description of a newly emergent specialty called computational philosophy of science, in which computerized discovery systems create and test new scientific theories. It also examines the essentials of the underlying realistic neopragmatist philosophy of language that has made philosophy of science a coherent and analytical discipline, and that has given new meaning to such key terms as "theory", "observation" and "explanation".
Over the past decade, the complexity of athlete development has increased, and sport science has become enthralled with metrics and genetics. While an abundance of information has emerged, there is still a lack of practical guidance on how to integrate this information with training to help athletes achieve their potential. Developing the Athlete: An Applied Sport Science Roadmap for Optimizing Performance brings much-needed clarity, providing a proven blueprint for bringing together the many fields related to sport science via an athlete development team that navigates the day-to-day development of each athlete. Developed by a team of renowned authors—including William Kraemer, one of the most prolifically published sport scientists in history—Developing the Athlete: An Applied Sport Science Roadmap for Optimizing Performance is the first resource of its kind. It explains the integration of sport science through the development of an athlete development team, implementing a process of testing, evaluating, assessing, and monitoring athlete training and performance. You will learn how data generated by the athlete development team are translated into training programs that promote the physical and psychological development an athlete needs to compete and succeed at every level of competition. You will also find step-by-step explanations of how to create a testing “fingerprint” unique to each athlete, as well as case studies and success stories that demonstrate how the concepts in the book have been experienced in real life. Get a better understanding of how the use of sport science can improve the skills needed for long-term athlete development. Developing the Athlete: An Applied Sport Science Roadmap for Optimizing Performance will help all types of sport performance professionals prioritize and apply the three Cs—credentials, competence, and commitment—so you can tap into known scientific principles and practices to develop a path for success for all your athletes. Earn continuing education credits/units! A continuing education exam that uses this book is also available. It may be purchased separately or as part of a package that includes both the book and exam.
From the time the public learned of DDT's dramatic containment of a typhus epidemic in Naples during World War II to the ban on DDT by the Environmental Protection Agency in 1972, this is the story of the controversial pesticide and its part in the rise of the environmental movement. 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.
Jay Dolan transformed the writing of American Catholic history a quarter-century ago by telling the story from the bottom up instead of from the top down. In recent years a number of parish histories have appeared that reflect and expand this new methodology. They successfully relate the life of a local faith community to the larger religious and secular world of which it is a part, and reciprocally illuminate that bigger world from the perspective of this local community. St. Joseph's Church in Greenwich Village offers a fruitful opportunity for this kind of history. During the life span of this parish, the Catholic community in New York City has grown from a mere thirty or forty thousand to over three million in two dioceses. St. Joseph's Church began as a poor immigrant parish in a hostile Protestant environment, developed into a prosperous working-class parish as the area became predominantly Catholic, survived a series of local economic and social upheavals, and remains today a vibrant spiritual center in the midst of an overwhelmingly secular neighborhood. Its history provides a fascinating glimpse of the evolution of Catholicism in New York City during the course of the past 175 years. The history of this parish is worth telling for its own sake as the collective journey of one faith community from immigrant mission to pillar of society and then to spiritual outpost in the Secular City. However, it has significance far beyond the boundaries of Greenwich Village because it documents at the most basic and vital level of Catholic communal organization the interaction between change and continuity that has been one of the most prominent features of urban Catholicism in the United States over the past two centuries.
This book offers a comprehensive review of the known literature data devoted to the reactions of a,ß-unsaturated ketones, their synthetic equivalents and precursor.
The rather specialized field of solar and infrared radiation measurement has become more and more important in the face of growing demands by the renewable energy and climate change research communities for data that are more accurate and have increased temporal and spatial resolution. Updating decades of acquired knowledge in the field, Solar and Infrared Radiation Measurements details the strengths and weaknesses of instruments used to conduct such solar and infrared radiation measurements. Topics covered include: Radiometer design and performance Equipment calibration, installation, operation, and maintenance Data quality assessment Methods to use measured data to estimate irradiance for any surface With a broad range of content that will benefit students and more experienced readers alike, this resource serves as a primer and technical reference that presents the basic terminology and fundamentals for resource assessment. It explores the history of solar radiation instruments and addresses direct normal, global, diffuse, and tilted measurements, as well as the characteristics of instruments used for these measurements. The authors consider methods of assessing the uncertainty of solar measurements and then cover albedo, infrared, net, and spectral irradiance measurements and instrumentation. The book devotes a section to other meteorological instruments, and another to the basics for installing and operating a solar monitoring station. Appendices include information on solar resource assessment modeling and satellite-derived irradiance, along with other useful material. This book’s authors are experts who each have more than 30 years of experience developing and operating multiple measurement stations, working with industry to improve radiometry, and conducting various research projects.
The rather specialized field of solar and infrared radiation measurements has become increasingly important due to the increased demands by the renewable energy and climate change research communities for data with higher accuracy and increased temporal and spatial resolutions. Recent advances in radiometry, measurement systems, and information dissemination also have increased the need for refreshing the literature available for this topic. This book provides the reader with an up-to-date review of the important aspects of solar and infrared radiation measurements: radiometer design; equipment installation, operation, maintenance, and calibration; data quality assessment parameters; and the knowledge necessary to properly interpret and apply the measured data to a variety of topics. Each of the authors has more than 40 years of experience with this subject, primarily as the result of developing and operating multiple measurement stations, working with the industry to improve radiometry, and conducting various research projects. The book’s scope and subject matter have been designed to help a wide audience gain a general understanding of this subject and to serve as a technical reference. A student new to the field will benefit from the review of terminology and the historical perspective for radiometry before addressing more detailed topics in radiometry that we hope will be of interest to the more experienced reader. Describes the strengths and weaknesses of irradiance instruments Provides detailed information on how to assess uncertainty in measurements Offers comprehensive background information needed to understand the use of solar instrumentation Discusses design concepts for shadowband radiometers, sky imagers, and satellite-based estimates of solar irradiance at the Earth’s surface Includes chapter-end questions, references, and useful links
Introduction: History of Satellite Meteorology. Scope of The Book. Orbits and Navigation: Newton's Laws. Keplerian Orbits. Orbit Perturbations. Meteorological Satellite Orbits. Satellite Positioning, Tracking and Navigation. Space-Time Sampling. Launch Vehicles and Profiles. Radiative Transfer: Basic Quantities. Blackbody Radiation. The Radiative Transfer Equation. Gaseous Absorption. Scattering. Surface Reflection. Solar Radiation. Meteorological SatelliteInstrumentation: Operational Polar-Orbiting Satellites. Operational Geostationary Satellites. Other Satellite Instruments. Satellite Data Archives. Image Interpretation: Satellite Imagery. Spectral Properties. Image Enhancement Techniques. Geolocation and Calibration. Atmospheric and Surface Phenomena. A Final Note. Temperature and Trace Gases: Sounding Theory. Retrieval Methods. Operational Retrievals. Limb Sounding Retrievals. Ozone and Other Gases. The Split-Window Technique. Winds: Cloud and Vapor Tracking. Winds from Soundings. Ocean Surface Winds. Doppler Wind Measurements. Clouds and Aerosols: Clouds from Sounders. Clouds from Imagers. Clouds from Microwave Radiometry. Stratospheric Aerosols. Tropospheric Aerosols. Precipitation: Visible and Infrared Techniques. Passive Microwave Techniques. Radar. Severe Thunderstorms. Earth Radiation Budget: The Solar Constant. Top of the Atmosphere Radiation Budget. Surface Radiation Budget. The Future: NOAA K, L, M. Mission to Planet Earth. Other Possibilities. A Final Comment. Appendixes: List of Meteorological Satellites.
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