8 research outputs found
Bat flight generates complex aerodynamic tracks
No full textThe flapping flight of animals generates an aerodynamic footprint as a time-varying vortex wake in which the rate of momentum change represents the aerodynamic force. We showed that the wakes of a small bat species differ from those of birds in some important respects. In our bats, each wing generated its own vortex loop. Also, at moderate and high flight speeds, the circulation on the outer ( hand) wing and the arm wing differed in sign during the upstroke, resulting in negative lift on the hand wing and positive lift on the arm wing. Our interpretations of the unsteady aerodynamic performance and function of membranous-winged, flapping flight should change modeling strategies for the study of equivalent natural and engineered flying devices
2D NMR-Based Metabolomics Uncovers Interactions between Conserved Biochemical Pathways in the Model Organism Caenorhabditis elegans
No full textA mechanical model of wing and theoretical estimate of taper factor for three gliding birds
No full textMeasuring power input, power output and energy conversion efficiency in un-instrumented flying birds
No full textTick-Borne Encephalitis Virus-Neutralizing Antibodies in Different Immunoglobulin Preparations
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