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Hvordan kan egentlig en stor flymaskin fly? Bli med opp i lufta og finn det ut!
Covers the history of flight, from Leonardo da Vinci to modern jumbo jets.
Dealing with aerodynamics in the broadest sense, this book discusses, in addition to aeroplanes, the aerodynamics of cars and birds, and the motion of diverse objects through air and water. The fundamental notions of mechanics and fluid dynamics are clearly explained, while the underlying science is discussed rigorously, but using only elementary mathematics, and then only occasionally. To put the science into its human context, the author describes -- with many illustrations -- the history of human attempts to fly and discusses the social impact of commercial aviation as well as the outlook for future developments. This new edition has been brought up to date throughout; solutions to selected exercises have been added, as have new problems and other study aids.
"Daddy, How Do Planes Fly?" is a dynamic introduction into the fantasy of flight. This brightly illustrated story shows children the primary principles of flight: roll, pitch, yaw, and thrust. Children, as well as parents, will be able to visualize and understand how airplanes travel through the air. What better way to introduce a strong vocabulary and airplane feature recognition to young readers as they take their first steps on the road to independent reading. "Daddy, How Do Planes Fly?" is a compelling story that just may have you wondering if you have the next Neil Armstrong or Amelia Earhart on your hands!
Do you know how planes work? The purpose of this educational resource is to teach your child how planes work in an effort to calm him/her down whenever he/she rides in one. What makes this book truly engaging is that is includes important pieces of information that have been rewritten in a way that's easy for kids to understand. Grab a copy today!
Though we routinely take to the air, for many of us flying remains a mystery. Few of us understand the how and why of jetting from New York to London in six hours. How does a plane stay in the air? Can turbulence bring it down? What is windshear? How good are the security checks? Patrick Smith, an airline pilot and author of Salon.com's popular column, "Ask the Pilot," unravels the secrets and tells you all there is to know about the strange and fascinating world of commercial flight. He offers: A nuts and bolts explanation of how planes fly Insights into safety and security Straight talk about turbulence, air traffic control, windshear, and crashes The history, color, and controversy of the world's airlines The awe and oddity of being a pilot The poetry and drama of airplanes, airports, and traveling abroad In a series of frank, often funny explanations and essays, Smith speaks eloquently to our fears and curiosities, incorporating anecdotes, memoir, and a life's passion for flight. He tackles our toughest concerns, debunks conspiracy theories and myths, and in a rarely heard voice dares to return a dash of romance and glamour to air travel.
Based on a 15-year successful approach to teaching aircraft flight mechanics at the US Air Force Academy, this text explains the concepts and derivations of equations for aircraft flight mechanics. It covers aircraft performance, static stability, aircraft dynamics stability and feedback control.
A poetic and nuanced exploration of the human experience of flight that reminds us of the full imaginative weight of our most ordinary journeys—and reawakens our capacity to be amazed. The twenty-first century has relegated airplane flight—a once remarkable feat of human ingenuity—to the realm of the mundane. Mark Vanhoenacker, a 747 pilot who left academia and a career in the business world to pursue his childhood dream of flight, asks us to reimagine what we—both as pilots and as passengers—are actually doing when we enter the world between departure and discovery. In a seamless fusion of history, politics, geography, meteorology, ecology, family, and physics, Vanhoenacker vaults across geographical and cultural boundaries; above mountains, oceans, and deserts; through snow, wind, and rain, renewing a simultaneously humbling and almost superhuman activity that affords us unparalleled perspectives on the planet we inhabit and the communities we form.
In Airplane Reading, Christopher Schaberg and Mark Yakich bring together a range of essays about air travel. Discerning and full of wonder, this prismatic collection features perspectives from a variety of writers, airline workers, and everyday travelers. At turns irreverent, philosophical, and earnest, each essay is a veritable journey in and of itself. And together, they illuminate the at once strange and ordinary world of flight. Contributors: Lisa Kay Adam • Sarah Allison • Jane Armstrong • Thomas Beller • Ian Bogost • Alicia Catt • Laura Cayouette • Kim Chinquee • Lucy Corin • Douglas R. Dechow • Nicoletta-Laura Dobrescu • Tony D’Souza • Jeani Elbaum • Pia Z. Ehrhardt • Roxane Gay • Thomas Gibbs • Aaron Gilbreath • Anne Gisleson • Anya Groner • Julian Hanna • Rebecca Renee Hess • Susan Hodara • Pam Houston • Harold Jaffe • Chelsey Johnson • Nina Katchadourian • Alethea Kehas • Greg Keeler • Alison Kinney • Anna Leahy • Allyson Goldin Loomis • Jason Harrington • Kevin Haworth • Randy Malamud • Dustin Michael • Ander Monson • Timothy Morton • Peter Olson • Christiana Z. Peppard • Amanda Pleva • Arthur Plotnik • Neal Pollack • Connie Porter • Stephen Rea • Hugo Reinert • Jack Saux • Roger Sedarat • Nicole Sheets • Stewart Sinclair • Hal Sirowitz • Jess Stoner • Anca L. Szilágyi • Priscila Uppal • Matthew Vollmer • Joanna Walsh • Tarn Wilson
An overview of the physics, concepts, theories, and models underlying the discipline of aerodynamics. This book offers a general overview of the physics, concepts, theories, and models underlying the discipline of aerodynamics. A particular focus is the technique of velocity field representation and modeling via source and vorticity fields and via their sheet, filament, or point-singularity idealizations. These models provide an intuitive feel for aerodynamic flow-field behavior and are the basis of aerodynamic force analysis, drag decomposition, flow interference estimation, and other important applications. The models are applied to both low speed and high speed flows. Viscous flows are also covered, with a focus on understanding boundary layer behavior and its influence on aerodynamic flows. The book covers some topics in depth while offering introductions and summaries of others. Computational methods are indispensable for the practicing aerodynamicist, and the book covers several computational methods in detail, with a focus on vortex lattice and panel methods. The goal is to improve understanding of the physical models that underlie such methods. The book also covers the aerodynamic models that describe the forces and moments on maneuvering aircraft, and provides a good introduction to the concepts and methods used in flight dynamics. It also offers an introduction to unsteady flows and to the subject of wind tunnel measurements. The book is based on the MIT graduate-level course “Flight Vehicle Aerodynamics” and has been developed for use not only in conventional classrooms but also in a massive open online course (or MOOC) offered on the pioneering MOOC platform edX. It will also serve as a valuable reference for professionals in the field. The text assumes that the reader is well versed in basic physics and vector calculus, has had some exposure to basic fluid dynamics and aerodynamics, and is somewhat familiar with aerodynamics and aeronautics terminology.