A mechanical analysis based on pterosaur flight

Author:

Liu Yangting

Abstract

Abstract Pterosaurs are the earliest vertebrates known to have evolved powered flight and are one of the heaviest flying animals. The reason why pterosaurs can fly has puzzled scientists. This article conducts a mechanical analysis of the cause of pterosaur flight. First, based on the theory of hydrodynamics and aerodynamics, the energy conservation and N-S equations are established to simulate the whole process of pterosaur flight (takeoff-glide-landing). Then, based on Newton’s second law, energy equation, and differential motion equation, the power during pterosaur flight is analyzed, and the U-shaped curve is obtained. Next, based on the leaf element-momentum theory, we chose Wellnhopterus brevirostris as our analysis object, and the average velocity and flutter frequency of pterosaur during flight were analyzed[1].

Publisher

IOP Publishing

Subject

Computer Science Applications,History,Education

Reference6 articles.

1. Wingbeat frequency of birds in steady cruising flight: new data and improved predictions [J];Pennycuick;Journal of Experimental Biology,1996

2. The Extent of the Pterosaur Flight Membrane [J];Elgin,2011

3. Migrating swans profit from favourable changes in wind conditions at low altitude [J];Klaassen;Journal fur Ornithologie,2004

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