Add to ORKGMechanical power output, based on measured power input, is compared with calculated values for aerodynamic and inertial power output in sphinx moths ranging from 350 to 3400 mg. Aerodynamic power output, calculated from momentum and blade-element aerodynamic theories, scales with the 1-08 power of body mass, amounting to about 40 % of the mechanical power output of large moths to about 15 % in the smallest individuals. Calculated value for the inertial power cost of hovering represents a larger fraction of the mechanical power output than the aerodynamic cost in all moths, with the value increasing as body mass decreases. Independent estimates of inertial power output based on metabolic data are similar to those obtained from calculations o...
A flying animal can minimize its energy consumption by choosing an optimal flight speed depending on...
Recently, much progress has been made in revealing aerodynamic force mechanisms and predicting power...
A spring gun was constructed to propel objects at known velocities of between 1 and 4-5 m.8"&qu...
The energetic cost of hovering flight was measured in sphinx moths from five species. Mean power inp...
The basic performance of the airplanes is expressed by a wing loading W/S and a wing power P/S, in w...
Most studies of insect flight deal primarily with hovering or with forward flight at constant, moder...
Morphometrics and oxygen consumption were studied in about 35 sphingids, 50 saturniids, and 20 other...
<p>Comparison of the aerodynamic performance of eight hovering insects from the developed LLT<sub>hw...
Flying insects achieve the highest mass-specific aerobic metabolic rates of all animals. However, fe...
The flight energetics of hovering hummingbirds was examined by simultaneous collection of metabolic ...
A quasi-steady aerodynamic analysis of forward flight was performed on 15 species of neotropical but...
A flying animal can minimize its energy consumption by choosing an optimal flight speed depending on...
A flying animal can minimize its energy consumption by choosing an optimal flight speed depending on...
In sexually dimorphic species, males and females have different morphological phenotypes. Elaborate ...
A flying animal can minimize its energy consumption by choosing an optimal flight speed depending on...
A flying animal can minimize its energy consumption by choosing an optimal flight speed depending on...
Recently, much progress has been made in revealing aerodynamic force mechanisms and predicting power...
A spring gun was constructed to propel objects at known velocities of between 1 and 4-5 m.8"&qu...
The energetic cost of hovering flight was measured in sphinx moths from five species. Mean power inp...
The basic performance of the airplanes is expressed by a wing loading W/S and a wing power P/S, in w...
Most studies of insect flight deal primarily with hovering or with forward flight at constant, moder...
Morphometrics and oxygen consumption were studied in about 35 sphingids, 50 saturniids, and 20 other...
<p>Comparison of the aerodynamic performance of eight hovering insects from the developed LLT<sub>hw...
Flying insects achieve the highest mass-specific aerobic metabolic rates of all animals. However, fe...
The flight energetics of hovering hummingbirds was examined by simultaneous collection of metabolic ...
A quasi-steady aerodynamic analysis of forward flight was performed on 15 species of neotropical but...
A flying animal can minimize its energy consumption by choosing an optimal flight speed depending on...
A flying animal can minimize its energy consumption by choosing an optimal flight speed depending on...
In sexually dimorphic species, males and females have different morphological phenotypes. Elaborate ...
A flying animal can minimize its energy consumption by choosing an optimal flight speed depending on...
A flying animal can minimize its energy consumption by choosing an optimal flight speed depending on...
Recently, much progress has been made in revealing aerodynamic force mechanisms and predicting power...
A spring gun was constructed to propel objects at known velocities of between 1 and 4-5 m.8"&qu...