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The aerodynamics of high-speed transportation systems is a critical research area that addresses the challenges inherent in designing vehicles operating at extreme speeds within confined environments.

The fuselage of a drone serves as its structural core, housing critical components such as batteries, sensors, and control systems, while providing attachment points for wings, motors, and landing ...

Our talented editorial team delves into a diverse range of topics form fashion to entertainment. With our passion for storytelling and a keen eye for detail, we aim to consistently deliver engaging ...

A series of experiments using paper airplanes reveals new aerodynamic effects, a team of scientists has discovered. Its findings enhance our understanding of flight stability and could inspire new ...

Indy cars not only have to ensure stability at high speeds while going in a straight line, but they also must operate at high speeds while cornering. Although much news surrounding the 2018 IndyCar ...

Researchers at the Technical University of Madrid in Spain have introduced a novel way to calculate the effective damping coefficient of single-axis solar trackers. In aerodynamics, damping is the ...

Aerodynamic design validated and new understanding of thermal material properties gained Following an extensive seven-month analysis of data collected from the Aug. 11, 2011, second flight of DARPA’s ...

Carbon fiber-reinforced rear wing increases supercar handling stability at speeds up to 150 mph/245 kmh. Companion front splitter and dive planes produce balanced 7:1 downforce-to-drag ratio.