Add to ORKGMankind has strived to achieve flight for millennia. This report explores the logistics of flying using only the hands for propulsion. It is hypothesised that simply twisting of the hand and flapping is enough to achieve the necessary net movement of air. It is found that the arms would have to flap at a frequency of 447Hz in order to maintain flight. A lower limit to the required power is calculated to be 1.3kW. Â
This article discusses the aerodynamic feasibility of pterodactyl flight. The different situations o...
For slow flapping motions it is found that the minimum energy loss occurs when the vortex wake moves...
Journal ArticleEarly experimenters in human flight learned, sometimes with fatal consequences, that ...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/90679/1/AIAA-2011-3121-245.pd
Many humans dream of flying like a bird. Although it is not possible on Earth, it is on Titan. This ...
International audienceWe study the dynamics of a rigid, symmetric wing that is flapped vertically in...
Bird wings generally contain a 4-bar pantograph mechanism in the forearm that enables the wrist join...
In this study a mechanism which produced flapping and pitching motions was designed and fabricated. ...
In connection with an earlier report on the lifting vortex sheet which forms the basis of the follow...
Aerodynamic considerations led us, not long ago, to investigate a device which seemed to promise a c...
More than a hundred years have now passed since the first powered flight by the Wright brothers, The...
Partial funding for Open Access provided by the UMD Libraries' Open Access Publishing Fund.Biologica...
Along the history, innumerable studies about the kinematics that govern flapping flight at high Reyn...
Aerodynamically economical flight is steady and level. The high-amplitude flapping and bounding flig...
AbstractAerodynamically economical flight is steady and level. The high-amplitude flapping and bound...
This article discusses the aerodynamic feasibility of pterodactyl flight. The different situations o...
For slow flapping motions it is found that the minimum energy loss occurs when the vortex wake moves...
Journal ArticleEarly experimenters in human flight learned, sometimes with fatal consequences, that ...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/90679/1/AIAA-2011-3121-245.pd
Many humans dream of flying like a bird. Although it is not possible on Earth, it is on Titan. This ...
International audienceWe study the dynamics of a rigid, symmetric wing that is flapped vertically in...
Bird wings generally contain a 4-bar pantograph mechanism in the forearm that enables the wrist join...
In this study a mechanism which produced flapping and pitching motions was designed and fabricated. ...
In connection with an earlier report on the lifting vortex sheet which forms the basis of the follow...
Aerodynamic considerations led us, not long ago, to investigate a device which seemed to promise a c...
More than a hundred years have now passed since the first powered flight by the Wright brothers, The...
Partial funding for Open Access provided by the UMD Libraries' Open Access Publishing Fund.Biologica...
Along the history, innumerable studies about the kinematics that govern flapping flight at high Reyn...
Aerodynamically economical flight is steady and level. The high-amplitude flapping and bounding flig...
AbstractAerodynamically economical flight is steady and level. The high-amplitude flapping and bound...
This article discusses the aerodynamic feasibility of pterodactyl flight. The different situations o...
For slow flapping motions it is found that the minimum energy loss occurs when the vortex wake moves...
Journal ArticleEarly experimenters in human flight learned, sometimes with fatal consequences, that ...