Torkel Weis-Fogh
| Torkel Weis-Fogh | |
|---|---|
 |
|
| Born |
March 25, 1922 Aarhus, Denmark |
| Died | 13 November 1975 (aged 53) Cambridge, England |
| Residence | England |
| Nationality | Danish |
| Fields | |
| Institutions | |
| Alma mater | University of Copenhagen |
| Doctoral advisor | August Krogh |
| Doctoral students | Charles Ellington |
| Known for |
|
| Influences | August Krogh |
Torkel Weis-Fogh (25 March 1922 – 13 November 1975) was a Danish zoologist and Professor at the University of Cambridge and the University of Copenhagen. He is best known for his contributions to the understanding of insect flight, especially the clap and fling mechanism used by very small insects. James Lighthill named this the Weis-Fogh mechanism of lift generation.
Weis-Fogh was born in Aarhus and educated at University of Copenhagen.
Weis-Fogh was research assistant to the Danish Nobel Prize–winning physiologist August Krogh, where he studied the flight mechanism of the desert locust.
He pioneered studies of insect flight with Krogh in a classic paper of 1951. He then spent a year at the Copenhagen Institute of Neurophysiology.
Weis-Fogh then went to the University of Cambridge in England for four years, where he discovered a rubbery protein, resilin, in insect cuticle. He continued working on insect flight.
He returned to Copenhagen as Professor of Zoophysiology, but went back to Cambridge in 1966 to become Professor of Zoology there, continuing to investigate mechanisms of cell motility and of flight.
In 1973 Weis-Fogh devised a mathematical model explaining how extremely small insects such as the thrips or chalcid wasps like Encarsia formosa could fly using clap-and-fling, where conventional steady state aerodynamics did not apply. These insects gain lift by creating vortices near their wings, at the price of the wear and tear from repeated clapping. The British mathematician Sir James Lighthill named this the Weis-Fogh mechanism of lift generation. His 1973 paper Quick Estimates of Flight Fitness in Hovering Animals, Including Novel Mechanisms for Lift Production has been cited over 1000 times.
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