Science of frisbee throwing
Two factors influence...
the flight of a Frisbee, gravity and air. Gravity acts on all
objects the same way, accelerating their mass towards the center of the Earth at 10
meters/second. Once in the air, lift and angular
momentum act on the Frisbee giving it a ballet-type performance. Lift is generated by
the Frisbee's shaped surfaces as it passes through the air. Maintaining a positive angle of attack, the air moving over the top of the Frisbee
flows faster than the air moving underneath it. Under the Bernoulli Principle, there is
then a lower air pressure on top of the Frisbee than beneath it. The difference in
pressure causes the Frisbee to rise or lift. This is the same principle that allows planes
to take off, fly and land. Another significant factor in the Frisbee's lift is Newton's
Third Law which states that for every action there is an equal and opposite reaction. The
Frisbee forces air down (action) and the air forces the Frisbee upward (reaction). The air
is deflected downward by the Frisbee's tilt, or angle of attack.
Spinning the Frisbee when it is thrown, or giving it angular momentum, provides it with
stability. Angular momentum is a property of any spinning mass. Throwing a Frisbee without
any spin allows it to tumble to the ground. The momentum of the spin also gives it
orientational stability, allowing the Frisbee to receive a steady lift from the air as it
passes through it. The faster the Frisbee spins, the greater its stability.
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