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A practical weather book for anyone interested in flight, covering both large and small-scale systems. This edition contains up-to-date information on means of obtaining data such as the MetFAX system, plus details on METAR and TAF reports. The book describes the infulence of high-level jet streams on the development of depressions, as well as detailing thermals, lee waves and up-and-down currents which are important to pilots of sailplanes, microlights, hang gliders and balloons. Diagrams show the movement of air at various heights and also trace the development of clouds, from fair weather cumulus to giant cumulonimbus and the associated hazards of lightning, hail, downbursts and outflows.
At the outset of his book, Dennis Newton reminds readers that Severe Weather Flying is not about flying in severe weather, but about how to detect and therefore avoid it, with advice on how to escape it if you become caught in it accidentally. Author Dennis Newton is a meteorologist, weather research pilot, engineering test pilot, ATP, and flight instructor, and he speaks pilot to pilot in this valuable guide on how not to fly severe weather.
Meteorology is at the top of the list as far as pilot "must-knows." Pilots not only have to know the intricacies of weather, but must understand weather to survive. This book will take any student, or seasoned pilot, from the basics of the atmosphere's composition to the topic of space weather. It's 32 chapters on the "A to Z" of aviation weather for Canadian pilots, and for others affiliated with the dynamic world of aviation weather!
Flying Colorado Mountain Weather is about reading clouds and flying mountain weather. Pilots will learn about: the joys and gravity of mountain winds; how to recognize and interpret various mountain clouds, such as unsteady lenticulars, rotors, K-H clouds, and little orphan anvils; lethal downdrafts on the windward side; how to fly mountain weather and turbulence.
A remarkable and beautiful new book that enters uncharted territory in explaining the vitally important pilot skill of understanding atmospheric perturbations. Rather than teaching with dreary old black and white drawings of isobars and fronts, endless graphs, and reams of figures, Pilot's Weather provides full-color photos and clear explanations of what fliers actually see and experience, excelling in making weather comprehensible to the non-meteorologist. This book is for readers who are interested in flying aircraft, ultralights, gliders, or kites -- or whose interest is the weather itself.
Weather Flying is regarded in the industry as the bible of weather flying. Robert Buck, a general aviation and commercial pilot with tens of thousands of hours of flight time, explains weather in a nontechnical way, giving pilots useful understanding of weather and practical knowledge of how to judge it and fly it. Covers weather flying psychology, en route weather changes, radar and how to use it, taking off in bad weather, and much more. Winner of the Flight Safety Foundation's Publication Award; recommended by the FAA.
This Topical Volume focuses on aviation meteorology for operations and research, covering important topics related to wind and turbulence, visibility, fog and precipitation, convection and lightning, icing, blowing snow, and ice cloud microphysics and dynamics. In addition to forecasting issues, the impact of climate on aviation operations is also highlighted, as temperature and moisture changes can affect aircraft aerodynamic conditions, such as lift and drag forces. This work uses measurements from state of art in-situ instruments and simulation results from numerical weather prediction (NWP) and climate models. New technologies related to satellites, radars, lidars, and UAVs (Unmanned Aerial Vehicles) are described, as well as new analysis methods related to artificial intelligence (AI) and neural network systems. Use of remote sensing platforms, including satellites, radars, radiometers, ceilometers, sodars, and lidars, as well as knowledge of the in-situ observations for the monitoring and short-term forecasting of wind, turbulence, gust, clear air turbulence (CAT), low visibility due to fog and clouds, and precipitation types are required for aviation operations at the airports and high level flying conditions. This book provides extensive knowledge for aviation-related meteorological processes and events that include short and long term prediction of high impact weather systems. Aviation experts, weather offices, pilots, university students, postgraduates, and researchers interested in aviation and meteorology, including new instruments for measurements applicable to forecasting and nowcasting, can benefit from consulting and reading this book. This book provides a comprehensive overview of our existing knowledge and the numerous remaining difficulties in predicting and measuring issues related to wind and turbulence, convection, fog and visibility, various cloud types, icing, and ice clouds at various time and space scales. Previously published in Pure and Applied Geophysics, Volume 176, Issue 5, 2019