Boeing claimed the 707 as the airplane that made the world smaller and horizons larger. The DC-8 was developed a little later than the 707 and as a result was always playing catch up. Despite being a fine aircraft, the VC10 was too late to seriously challenge the 707 and DC-8, but today soldiers on in military service with the RAF as tankers and transports. This detailed work is filled with highlights of each aircrafts development plus a broad overview of its operational history. Legends of the Air 6. Sftbd., 8 1/4x 11, 186 pgs., 225 bandw ill., 60 color.
A definitive look at the plane that revolutionized air travel and its place in aviation history from the author of Comet! The World’s First Jet Airliner. The Boeing 707 family—that includes the forerunner Model 367-80, the KC-135 series of military transports and the slightly smaller Model 720—was the pioneer of the sweptback wing, incorporating podded engines borrowed from the B-47 military bomber. It was the aircraft that many regard as the design that really ushered in the Jet-Age. This book from the established aviation historian Graham Simons examines the entire course of the Boeing 707’s history, charting an impressive design evolution and illustrating the many ways in which the 707’s legacy continues to be felt to this day. In laying the foundation for Boeing’s preeminence on the world’s jetliner market during the 1980s and 90s, the 707 paved the way for future innovations in both civilian and military fields and Graham Simons has put together an image-packed history that records the historic and landmark milestones of this iconic aircraft type. “The book is well worth the price and will provide many hours of intriguing reading and research support. It is a good addition to one’s aviation bookshelf.”—Air Power History “An impressive volume that is well-written, and easy to read. Its research is of a high standard. It will, of course, appeal to Boeing 707/C-135 ‘enthusiasts’ and as such could well become a ‘Standard Reference Work’ on its subject.”—NZ Crown Mines
The VC10 was designed to operate in the difficult and demanding environment of the _Empire_ routes, which combined tropical conditions with often limited facilities. It was a tremendous success with its excellent payload, range, and performance, and was heralded by passengers and crew alike. Its length of service, the variants produced, and its development as an RAF transport all confirm the basic excellence of its design. Lance Cole tells the full story of its design and development. Using original Vickers documentation and interviews with the design and flight team, he has amassed a wealth of material, from its roots in the stillborn V1000 through to its current use with the RAF. Hdbd., 8 3/4_x 11_, 174 pgs., 148 b&w ill., 29 color.
“A comprehensive history of the VC10 . . . enhanced by the fabulous artwork and photographs . . . will take you back to the golden age of jet travel.” —Flight Line Book Review Designed and manufactured by the men who would make Concorde, the Rolls-Royce powered Vickers VC10, and its larger variant, the Super VC10, represented the ultimate in 1960s subsonic airliners. The VC10 was Britain’s answer to the Boeing 707 and the Douglas DC-8, but it could take off in a very short distance, climb more steeply, and land at slower speed than its rivals. These were vital safety benefits in the early years of the jet age. At one stage, the Super VC10 was the biggest airliner made in Europe and the fastest in the world. On entry into service, both the VC10 and the longer Super VC10 carved out a niche with passengers who enjoyed the speed, silence and elegance of the airliner. Pilots, meanwhile, loved its ease of flying and extra power. Yet the VC10 project was embroiled in machinations across many years and more than one government. Questions were asked in parliament and the whole story was enmeshed in a political and corporate affair that signified the end of British big airliner production. Yet the men who made the VC10 also went on to design and build Concorde. Many VC10 pilots became Concorde pilots. In service until the 1980s with British Airways, and until 2013 with the RAF, the VC10 became a British icon and a national hero, one only eclipsed by Concorde. It retains a place in the hearts and minds of enthusiasts the world over. “A good one-stop reference to the VC10.” —Scale Aviation Modeller International
This book provides a comprehensive basics-to-advanced course in an aero-thermal science vital to the design of engines for either type of craft. The text classifies engines powering aircraft and single/multi-stage rockets, and derives performance parameters for both from basic aerodynamics and thermodynamics laws. Each type of engine is analyzed for optimum performance goals, and mission-appropriate engines selection is explained. Fundamentals of Aircraft and Rocket Propulsion provides information about and analyses of: thermodynamic cycles of shaft engines (piston, turboprop, turboshaft and propfan); jet engines (pulsejet, pulse detonation engine, ramjet, scramjet, turbojet and turbofan); chemical and non-chemical rocket engines; conceptual design of modular rocket engines (combustor, nozzle and turbopumps); and conceptual design of different modules of aero-engines in their design and off-design state. Aimed at graduate and final-year undergraduate students, this textbook provides a thorough grounding in the history and classification of both aircraft and rocket engines, important design features of all the engines detailed, and particular consideration of special aircraft such as unmanned aerial and short/vertical takeoff and landing aircraft. End-of-chapter exercises make this a valuable student resource, and the provision of a downloadable solutions manual will be of further benefit for course instructors.
The World's Most Powerful Civilian Aircraft profiles many types, from cargo transports and freighters, through flying boats, passenger airliners, and business jets. Featured aircraft include the Ford Trimotor “Tin Goose,” one of the great workhorses of early aviation history; the supersonic Tupolev Tu-144 “Charger” and Concorde, Cold War competitors in aviation excellence; and the most popular passenger aircraft of the present, including the Boeing 747 and Airbus A380. Each entry includes a brief description of the model’s development and history, a profile view, key features, and specifications. Packed with more than 200 artworks and photographs, this is a colorful guide for the aviation enthusiast.
Packed with more than 200 artworks and photographs, The World’s Greatest Civil Aircraft is a colourful guide for the aviation enthusiast. From cargo transports and freighters, through flying boats to supersonic airliners, each entry includes a description of the model’s development and history, a profile view, key features and specifications.
This volume chronicles the making of the Harrier Jump Jet—the innovative Cold War fighter aircraft designed to operate from virtually anywhere. In 1957, the British engine manufacturer Bristol Siddeley turned aircraft design on its head with the creation of the Pegasus engine. Until then, aircraft designs would seek out suitable engines. Now the Pegasus was an engine in search of a suitable aircraft. The result was the famous Hawker Siddeley Harrier, the first military airplane capable of vertical takeoff and landings. To this day, Harrier Jump Jets are still in front-line service with air forces around the world including the Royal Air Force and US Marine Corps. In this volume, former Bristol Siddeley executive Andrew Dow offers an in-depth look at the Pegasus engine's original design concept, production and flight testing. Dow then covers the developments and improvements that have been made over the years. He also includes experiences of operational combat flying, both from land and sea. Written in straightforward prose that avoids technical jargon, Pegasus, The Heart of the Harrier is copiously illustrated with many previously unseen photographs and diagrams.
Eminent physicist and economist, Robert Ayres, examines the history of technology as a change agent in society, focusing on societal roots rather than technology as an autonomous, self-perpetuating phenomenon. With rare exceptions, technology is developed in response to societal needs that have evolutionary roots and causes. In our genus Homo, language evolved in response to a need for our ancestors to communicate, both in the moment, and to posterity. A band of hunters had no chance in competition with predators that were larger and faster without this type of organization, which eventually gave birth to writing and music. The steam engine did not leap fully formed from the brain of James Watt. It evolved from a need to pump water out of coal mines, driven by a need to burn coal instead of firewood, in turn due to deforestation. Later, the steam engine made machines and mechanization possible. Even quite simple machines increased human productivity by a factor of hundreds, if not thousands. That was the Industrial Revolution. If we count electricity and the automobile as a second industrial revolution, and the digital computer as the beginning of a third, the world is now on the cusp of a fourth revolution led by microbiology. These industrial revolutions have benefited many in the short term, but devastated the Earths ecosystems. Can technology save the human race from the catastrophic consequences of its past success? That is the question this book will try to answer.
