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Aero-Dynamics

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Product Number: Topic 2

Country/Territory: South Africa

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Aerodynamic Propulsion:

Optimizing mass geometry into asymmetrical foils to convert high-speed atmospheric drag into a propulsive vector.

Aerodynamic Propulsion & Foil Geometry

Founding Statement: "At tip speeds of 226 km/h, the 1.35kg masses must be shaped as asymmetrical foils to create a localized low-pressure zone on the leading edge, converting atmospheric drag into a propulsive vector."
Investigation Area: CFD (Computational Fluid Dynamics) modeling of the "uphill" vs "downhill" drag coefficients in a 20° tilted plane.

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Aerodynamic Propulsion:

Optimizing mass geometry into asymmetrical foils to convert high-speed atmospheric drag into a propulsive vector.

Aerodynamic Propulsion & Foil Geometry

Founding Statement: "At tip speeds of 226 km/h, the 1.35kg masses must be shaped as asymmetrical foils to create a localized low-pressure zone on the leading edge, converting atmospheric drag into a propulsive vector."

Investigation Area: CFD (Computational Fluid Dynamics) modeling of the "uphill" vs "downhill" drag coefficients in a 20° tilted plane.