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Applicants studying for the Airline Transport Pilot and Aircraft Dispatcher Knowledge Exams will find sample questions for every question in the Federal Aviation Administration (FAA) exam database along with their answers and explanations, in this guide. All of the more than 900 questions from the exam are arranged by subject category and are accompanied by specific study material. Updates are provided to account for FAA test-question changes throughout the publication year via the ASA website or e-mail. Each question is followed by the answer, an explanation of the answer, and a reference and subject code for further study in FAA materials. Regulations, weather and weather services, flight physiology, and aircraft performance are among the subjects covered.
NEW YORK TIMES BESTSELLER A fascinating fear of flying book from a commercial airline pilot and author of the popular website askthepilot.com. For millions of people, travel by air is a confounding, uncomfortable, and even frightening experience. When you go behind the scenes, however, you can see that the grand theater of air travel is actually fascinating. From the intricate design of airport architecture to the logistics of inflight service, here is everything you need to know about flying. Commercial airlines like to hide the truth from customers and do nothing to comfort nervous fliers. And what's scarier than the unknown? In this aviation book, pilot Patrick Smith breaks down that barrier and tells you everything you need to know about flying, including: How planes fly, and a revealing look at the men and women who fly them Straight talk on turbulence, pilot training, and safety The real story on delays, congestion, and the dysfunction of the modern airport The myths and misconceptions of cabin air and cockpit automation Terrorism in perspective, and a provocative look at security Airfare, seating woes, and the pitfalls of airline customer service The true colors and cultures of the airlines we love to hate Cockpit Confidential is a thoughtful, funny, and at times deeply personal look into the strange and misunderstood world of commercial flying. If you liked other books about airplanes for adults, including Soar by Tom Bunn or Skyfaring, you'll find reassurance, humor, and guidance in Cockpit Confidential. "Anyone remotely afraid of flying should read this book, as should anyone who appreciates good writing and great information." —The New York Times, on ASK THE PILOT "Patrick Smith is extraordinarily knowledgeable about modern aviation...the ideal seatmate, a companion, writer and explorer." —Boston Globe
The traditional computer science courses for engineering focus on the fundamentals of programming without demonstrating the wide array of practical applications for fields outside of computer science. Thus, the mindset of “Java/Python is for computer science people or programmers, and MATLAB is for engineering” develops. MATLAB tends to dominate the engineering space because it is viewed as a batteries-included software kit that is focused on functional programming. Everything in MATLAB is some sort of array, and it lends itself to engineering integration with its toolkits like Simulink and other add-ins. The downside of MATLAB is that it is proprietary software, the license is expensive to purchase, and it is more limited than Python for doing tasks besides calculating or data capturing. This book is about the Python programming language. Specifically, it is about Python in the context of mechanical and aerospace engineering. Did you know that Python can be used to model a satellite orbiting the Earth? You can find the completed programs and a very helpful 595 page NSA Python tutorial at the book’s GitHub page at https://www.github.com/alexkenan/pymae. Read more about the book, including a sample part of Chapter 5, at https://pymae.github.io
In this book, Dr. Andras Sobester reviews the science behind high altitude flight. He takes the reader on a journey that begins with the complex physiological questions involved in taking humans into the "death zone." How does the body react to falling ambient pressure? Why is hypoxia (oxygen deficiency associated with low air pressure) so dangerous and why is it so difficult to 'design out' of aircraft, why does it still cause fatalities in the 21st century? What cabin pressures are air passengers and military pilots exposed to and why is the choice of an appropriate range of values such a difficult problem? How do high altitude life support systems work and what happens if they fail? What happens if cabin pressure is lost suddenly or, even worse, slowly and unnoticed? The second part of the book tackles the aeronautical problems of flying in the upper atmosphere. What loads does stratospheric flight place on pressurized cabins at high altitude and why are these difficult to predict? What determines the maximum altitude an aircraft can climb to? What is the 'coffin corner' and how can it be avoided? The history of aviation has seen a handful of airplanes reach altitudes in excess of 70,000 feet - what are the extreme engineering challenges of climbing into the upper stratosphere? Flying high makes very high speeds possible -- what are the practical limits? The key advantage of stratospheric flight is that the aircraft will be 'above the weather' - but is this always the case? Part three of the book investigates the extreme atmospheric conditions that may be encountered in the upper atmosphere. How high can a storm cell reach and what is it like to fly into one? How frequent is high altitude 'clear air' turbulence, what causes it and what are its effects on aircraft? The stratosphere can be extremely cold - how cold does it have to be before flight becomes unsafe? What happens when an aircraft encounters volcanic ash at high altitude? Very high winds can be encountered at the lower boundary of the stratosphere - what effect do they have on aviation? Finally, part four looks at the extreme limits of stratospheric flight. How high will a winged aircraft will ever be able to fly? What are the ultimate altitude limits of ballooning? What is the greatest altitude that you could still bail out from? And finally, what are the challenges of exploring the stratospheres of other planets and moons? The author discusses these and many other questions, the known knowns, the known unkonwns and the potential unknown unknowns of stratospheric flight through a series of notable moments of the recent history of mankind's forays into the upper atmospheres, each of these incidents, accidents or great triumphs illustrating a key aspect of what makes stratospheric flight aviation at the limit.
Sentenced to desk duty after an unorthodox but successful maneuver, flight engineer Peter Raeder takes a risky assignment on the fringes of Federation space rather than languish away in an office.
Aircraft Engineering Principles is the essential text for anyone studying for licensed A&P or Aircraft Maintenance Engineer status. The book is written to meet the requirements of JAR-66/ECAR-66, the Joint Aviation Requirement (to be replaced by European Civil Aviation Regulation) for all aircraft engineers within Europe, which is also being continuously harmonised with Federal Aviation Administration requirements in the USA. The book covers modules 1, 2, 3, 4 and 8 of JAR-66/ECAR-66 in full and to a depth appropriate for Aircraft Maintenance Certifying Technicians, and will also be a valuable reference for those taking ab initio programmes in JAR-147/ECAR-147 and FAR-147. In addition, the necessary mathematics, aerodynamics and electrical principles have been included to meet the requirements of introductory Aerospace Engineering courses. Numerous written and multiple choice questions are provided at the end of each chapter, to aid learning.