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Why do parachutes slow falling?

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Answer: Air resistance increases greatly

Air resistance increases greatlyCorrect! Drag force = ½ρv²CdA where ρ=air density, v=velocity, Cd=drag coefficient, A=area. Parachute massively increases surface area A—drag increases proportionally! Without parachute: small area, reaches terminal velocity ~120 mph (53 m/s). With parachute: huge area, terminal velocity drops to ~15 mph (7 m/s)—survivable! Air resistance balances gravity—constant speed descent. Larger parachute = slower descent. Design: canopy shape optimizes drag and stability!

Parachute creates vacuum aboveWrong. No vacuum. Parachute traps air underneath creating drag (air resistance), while air flows around creating turbulence—both slow fall.

Wind pushes parachute upwardWrong. No upward wind force (unless thermal updraft). Parachute slows through air resistance—large surface area creates massive drag opposing gravity.

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