Avian flight
Bird flight has always intrigued mankind. This book provides an up-to-date account of our existing knowledge on the subject, offering new insights and challenging some established views. A brief history of the science of flight introduces the basic physical principles governing aerial locomotion. Th...
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| Main Author | |
|---|---|
| Format | eBook Book |
| Language | English |
| Published |
Oxford
Oxford University Press
2005
|
| Edition | 1 |
| Subjects | |
| Online Access | Get full text |
| ISBN | 9780198566038 0198566034 |
| DOI | 10.1093/acprof:oso/9780199299928.001.0001 |
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| Abstract | Bird flight has always intrigued mankind. This book provides an up-to-date account of our existing knowledge on the subject, offering new insights and challenging some established views. A brief history of the science of flight introduces the basic physical principles governing aerial locomotion. This is followed by a treatment of flight-related functional morphology, concentrating on the difference in shape of the arm and hand part of the wings, on the structure and function of tails, and on the shape of the body. The anatomy and mechanical properties of feathers receive special attention. Aerodynamic principles used by birds are explained in theory by simply applying Newton'slaws, and in practice by showing the direction and velocity of the attached flow around an arm wing cross section and of the leading edge vortex flow above a hand wing. The Archaeopteryx fossils remain crucial in our understanding of the evolution of bird flight despite the recent discovery of arange of well-preserved ancient birds. Avian Flight offers a novel insight into the interactions between wings and air which challenges established theories relating to the origin of bird flight. Take-off, flapping flight, gliding and landing are the basic ingredients of bird flight, and birds use a variety of flight styles from hovering to soaring. Flight muscles are the engines that generate the force required to keep the wings and tail in the gliding configuration and perform workduring flapping motion. The energy required to fly can be estimated or measured directly, and a comparison of the empirical results provides insights into the trend in metabolic costs of flight of birds varying in shape and mass from hummingbirds to albatrosses. The book will be of interest to biologists, ornithologists, and bird watchers. It will also be of relevance and use to physicists,
mathematicians, and engineers involved with aerodynamics. |
|---|---|
| AbstractList | Bird flight has always intrigued mankind. This book provides an up-to-date account of our existing knowledge on the subject, offering new insights and challenging some established views. A brief history of the science of flight introduces the basic physical principles governing aerial locomotion. This is followed by a treatment of flight-related functional morphology, concentrating on the difference in shape of the arm and hand part of the wings, on the structure and function of tails, and on the shape of the body. The anatomy and mechanical properties of feathers receive special attention. Aerodynamic principles used by birds are explained in theory by simply applying Newton'slaws, and in practice by showing the direction and velocity of the attached flow around an arm wing cross section and of the leading edge vortex flow above a hand wing. The Archaeopteryx fossils remain crucial in our understanding of the evolution of bird flight despite the recent discovery of arange of well-preserved ancient birds. Avian Flight offers a novel insight into the interactions between wings and air which challenges established theories relating to the origin of bird flight. Take-off, flapping flight, gliding and landing are the basic ingredients of bird flight, and birds use a variety of flight styles from hovering to soaring. Flight muscles are the engines that generate the force required to keep the wings and tail in the gliding configuration and perform workduring flapping motion. The energy required to fly can be estimated or measured directly, and a comparison of the empirical results provides insights into the trend in metabolic costs of flight of birds varying in shape and mass from hummingbirds to albatrosses. The book will be of interest to biologists, ornithologists, and bird watchers. It will also be of relevance and use to physicists,
mathematicians, and engineers involved with aerodynamics. |
| Author | Videler, John J |
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| Discipline | Zoology Anatomy & Physiology |
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| Edition | 1 |
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| Notes | http://www.loc.gov/catdir/enhancements/fy0638/2005281951-t.html 0198566034 (cased) http://www.loc.gov/catdir/enhancements/fy0638/2005281951-d.html Includes bibliographical references (p. [235]-251) and index |
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| Snippet | Bird flight has always intrigued mankind. This book provides an up-to-date account of our existing knowledge on the subject, offering new insights and... |
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| SubjectTerms | Birds Birds -- Flight Flight |
| TableOfContents | Intro -- Contents -- 1 Acquisition of knowledge -- 1.1 Introduction -- 1.2 Ancient thoughts -- 1.3 A chronicle of cognition -- 1.4 The rise of aerodynamics -- 1.5 Application of principles -- 1.6 Accumulation of knowledge in the twentieth century -- 1.7 Novel initiatives -- 1.8 Summary and conclusions -- 2 The flight apparatus -- 2.1 Introduction -- 2.2 Wing morphology -- 2.3 Dynamic wing properties -- 2.4 Scaling wings -- 2.5 Attempts to a functional interpretation of bird wings -- 2.6 Tail structure and function -- 2.7 The rest of the body in relation to flight -- 2.8 Summary and conclusions -- 3 Feathers for flight -- 3.1 Introduction -- 3.2 General description of contour feathers -- 3.3 Mechanical properties of feathers -- 3.4 Functional interpretation of flight-related microstructures -- 3.5 Tail feathers -- 3.6 Feather muscles and nerves -- 3.7 Summary and conclusions -- 4 Aerodynamics -- 4.1 Introduction -- 4.2 Rough estimates of forces and power -- 4.3 Visualization of the wake -- 4.4 The flow near a steadily gliding wing -- 4.5 Aerodynamics of flapping flight -- 4.6 Tail aerodynamics -- 4.7 Summary and conclusions -- 5 Evolution of bird flight -- 5.1 Introduction -- 5.2 Archaeopteryx -- 5.3 Landing after an arboreal or cursorial start? -- 5.4 The Jesus-Christ dinosaur hypothesis -- 5.5 How could Archaeopteryx run over water? -- 5.6 Other fossils with characteristics possibly related to the beginning of flight -- 5.7 Summary and conclusions -- 6 Bird flight modes -- 6.1 Introduction -- 6.2 The flight plan -- 6.3 Cruising flight characteristics -- 6.4 Hovering -- 6.5 Windhovering -- 6.6 Techniques to reduce the energetic demands of flapping flight -- 6.7 Gliding -- 6.8 Manoeuvring -- 6.9 Accurate measurements of speed -- 6.10 Summary and conclusions -- 7 The bird flight engine -- 7.1 Introduction -- 7.2 A glimpse under a starling's cowling 7.3 Muscle activity -- 7.4 Pectoralis force and work: using the deltopectoral crest as a strain gauge -- 7.5 The main upstroke muscle -- 7.6 Tail steering -- 7.7 Wing beat cycles and respiration -- 7.8 Summary and conclusions -- 8 Energy required for flight -- 8.1 Introduction -- 8.2 Mass loss estimates -- 8.3 Respirometric results from cunning experiments -- 8.4 Gas exchange measurements in wind tunnels -- 8.5 Measurements based on the turnover of stable isotopes -- 8.6 The cost of hovering -- 8.7 Summary and conclusions -- 9 Comparing the metabolic costs of flight -- 9.1 Introduction -- 9.2 How to make fair comparisons? -- 9.3 Flight costs related to body mass -- 9.4 Birds compared with other flyers -- 9.5 Metabolic rates as units of energy expenditure -- 9.6 Predictions from aerodynamic models -- 9.7 Hovering flight -- 9.8 Summary and conclusions -- Appendix 1 -- Appendix 2 -- Appendix 3 -- References -- Index -- A -- B -- C -- D -- E -- F -- G -- H -- I -- J -- K -- L -- M -- N -- O -- P -- Q -- R -- S -- T -- U -- V -- W -- X -- Y |
| Title | Avian flight |
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