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Physics Fundamentals

Free Fall
Race

Predict which object lands first.
Real drag physics. 8 challenges.

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🏁 Kinematics Game

Free Fall Race — Free Online Terminal Velocity & Drag Force Game

Free Fall Race is a prediction game — make your call about which object lands first, then watch the real physics play out. Each object's motion is governed by F = ma with drag force F_d = ½ρC_dAv² applied every frame.

The physics behind the game

Free fall in vacuum

a = g = 9.8 m/s² for ALL objects

With no air resistance, every object accelerates identically. A feather and a cannonball hit the ground at the same time — Galileo proved this, Apollo 15 demonstrated it on the Moon.

Drag force

F_d = ½ρC_dAv²

Air resistance grows with the square of velocity. Once drag force equals weight, acceleration reaches zero — this is terminal velocity. Bigger cross-section and higher drag coefficient both increase drag.

Terminal velocity

v_t = √(2mg / ρC_dA)

The maximum speed of a falling object. Heavy objects and small cross-sections give high terminal velocity. Light objects with large cross-sections (like a parachute) have very low terminal velocity.

Stokes' drag (slow flow)

F_d = 6πηrv

For very slow flows or small objects (like dust particles, fog droplets), drag is proportional to velocity not velocity squared. This is Stokes' law.

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