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Why do boomerangs come back?

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Answer: Spinning creates unequal lift

Spinning creates unequal liftCorrect! Boomerang has two airfoil-shaped arms—like airplane wings. Spin creates gyroscopic precession. As boomerang spins, one arm moves forward through air faster (spin + throw velocity), other slower. Faster arm generates more lift than slower arm—unequal lift creates torque perpendicular to spin axis. Gyroscopic precession: torque causes rotation axis to precess (tilt), curving flight path in circle! Returns to thrower. Right-handed throw: spins counterclockwise, curves left. Complex aerodynamics!

Shape makes them bounceWrong. Boomerang doesn't bounce. It flies in curved path due to gyroscopic precession from unequal lift on spinning arms.

Magnetic force attracts themWrong. No magnetism. Boomerang returns through aerodynamic forces—spinning airfoil arms generate unequal lift creating torque and curved path.

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