Solve My Mystery: The Winging Seed Problem

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Maple seeds exhibit a unique rotational movement when released due to their wing structure, which acts like a propeller. The wing's slant allows air to push both upward and sideways, causing the seed to rotate as it descends. This rotation generates angular momentum, and the gyroscopic inertia helps maintain the spin. The seed's motion resembles that of a monocopter, where lift is created by the wing's rotation. The discussion also raises questions about whether this behavior changes upon reaching terminal velocity.
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Hello To All...
I'm Having A Problem With An Observation...
In This Observation,If I Release A Maple Seed,It Goes Down In A Rotational Movement.
The Question Is Why?
I Hope That Some One Could Help Me...:smile:
Thanx...
 
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Take a look at that Maple seed before you release it! It has one "wing" that looks like one part of a propellor. The seed doesn't fall directly down because air pushes up against that "wing". Because of the slant of the "wing", air also pushes it "to the side" causing it to rotate.
 
Interesting. I don't know what causes it to gain angular momentum, but once it's in the rotating phase, the gyroscopic inertia from its spin opposes anything that will try to stop it from rotating. It rotates around a common centre of mass, and that happens to be close to the "seed" part. Regardless, it just works like a monocopter - the lift generated by the rotation of the wing, and the inertia generated by that rotation just keeps it spinning and spinning.

Maybe that changes if it hits terminal velocity?
 

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