Stratospheric Flight [electronic resource]: Aeronautics at the Limit / by Andras Sóbester.
Por: Sóbester, Andras [author.]
Colaborador(es): SpringerLink (Online service)Tipo de material: 
TextoSeries Springer Praxis BooksDescripción: XXIV, 215 p. 76 illus., 30 illus. in color. online resourceISBN: 9781441994585 99781441994585Tema(s): Engineering | ASTROPHISICS | MATHEMATICS | ASTRONAUTICS | Engineering | ESTRATERRESTRIAL PHYSICS, SPACE SCIENCES | POPULAR SCIENCE IN MATHEMATICS, COMPUTER SCIENCE, NATURAL SCIENCE, TECHNOLOGY | AEROSPACE TECHNOLOGY AND ASTRONAUTICSClasificación CDD: 629.1 Recursos en línea: ir a documento
Contenidos:
Resumen: The stratosphere is the highest layer of Earth's atmosphere where aircraft can still fly. The density of the air is just high enough here to generate lift on a wing or buoyancy on a balloon, so designing any stratospheric aircraft is a delicate technological balancing act for the engineer. Designing and operating an aircraft capable of conveying humans to the stratosphere is more challenging still: biologically, we simply do not belong up there. Temperatures often as low as -80C (-112F) and an ambient pressure rapidly diminishing with altitude make for an extremely forbidding environment. In fact, as we pass 50 000 feet (the lower end of Concorde's cruising altitude range), we enter the space equivalent zone - from a physiological point of view we might as well be in low Earth orbit. The fact that stratospheric flight is possible at all - moreover, even safe and economical, at least in the lower stratosphere - is made possible by some relatively recent advances in our understanding of the science of high altitude flight. This book charts some of these developments; at the same time, it is a catalog of ways in which the stratosphere can catch out even the well-prepared flyer. Naturally, the failures of early explorers have signposted many of these dangers, but, as regular news headlines and the series of vignettes that punctuate the book illustrate, the learning curve has not levelled off, it has merely become shallower. Stratospheric flight is still aviation at the limit.
Preface -- Acknowledgements -- About the author -- Prologue -- Millimeters of mercury -- Part I: In a hostile environment -- Chapter 1: A sense of not belonging -- Chapter 2: Comfort Zone -- Part II: New heights of flight -- Chapter 3: A tale of two Comets -- Chapter 4: Higher -- Chapter 5: Faster -- Part III: 'Above the weather' -- Chapter 6: Deep freeze -- Chapter 7: Rivers of air -- Chapter 8: Rough ride -- Chapter 9: A gray area -- Part IV: Where next? -- Chapter 10: Higher still -- V. Appendices -- Chapter 11: Unit conversions -- Chapter 12: Temperature profiles around the globe -- References -- Index.
| Tipo de ítem | Ubicación actual | Colección | Signatura | Info Vol | Copia número | Estado | Fecha de vencimiento | Código de barras | Reserva de ítems |
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Biblioteca Jorge Álvarez Lleras | Digital | 629.1 223 (Navegar estantería) | Ej. 1 | 1 | Disponible | D000720 |
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Preface -- Acknowledgements -- About the author -- Prologue -- Millimeters of mercury -- Part I: In a hostile environment -- Chapter 1: A sense of not belonging -- Chapter 2: Comfort Zone -- Part II: New heights of flight -- Chapter 3: A tale of two Comets -- Chapter 4: Higher -- Chapter 5: Faster -- Part III: 'Above the weather' -- Chapter 6: Deep freeze -- Chapter 7: Rivers of air -- Chapter 8: Rough ride -- Chapter 9: A gray area -- Part IV: Where next? -- Chapter 10: Higher still -- V. Appendices -- Chapter 11: Unit conversions -- Chapter 12: Temperature profiles around the globe -- References -- Index.
The stratosphere is the highest layer of Earth's atmosphere where aircraft can still fly. The density of the air is just high enough here to generate lift on a wing or buoyancy on a balloon, so designing any stratospheric aircraft is a delicate technological balancing act for the engineer. Designing and operating an aircraft capable of conveying humans to the stratosphere is more challenging still: biologically, we simply do not belong up there. Temperatures often as low as -80C (-112F) and an ambient pressure rapidly diminishing with altitude make for an extremely forbidding environment. In fact, as we pass 50 000 feet (the lower end of Concorde's cruising altitude range), we enter the space equivalent zone - from a physiological point of view we might as well be in low Earth orbit. The fact that stratospheric flight is possible at all - moreover, even safe and economical, at least in the lower stratosphere - is made possible by some relatively recent advances in our understanding of the science of high altitude flight. This book charts some of these developments; at the same time, it is a catalog of ways in which the stratosphere can catch out even the well-prepared flyer. Naturally, the failures of early explorers have signposted many of these dangers, but, as regular news headlines and the series of vignettes that punctuate the book illustrate, the learning curve has not levelled off, it has merely become shallower. Stratospheric flight is still aviation at the limit.
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