📱
Please Rotate to Landscape
This physics simulator works best in landscape mode on larger screens.
Continue Anyway
by
Zigao Wang
⚠️ Small screen - not optimized but usable
Simulation Mode
Single Object
Dual Drop (Comparison)
Object
Feather (0.002 kg, 1 m/s)
Raindrop (0.001 kg, 9 m/s)
Penny (0.0025 kg, 11 m/s)
Marble (0.005 kg, 18 m/s)
Golf Ball (0.046 kg, 32 m/s)
Tennis Ball (0.057 kg, 28 m/s)
Large Hailstone (0.02 kg, 25 m/s)
Baseball (0.145 kg, 45 m/s)
Basketball (0.62 kg, 20 m/s)
Bowling Ball (7.26 kg, 35 m/s)
Custom
Mass (kg)
Terminal Velocity (m/s)
Object 1 (Left)
Feather (0.002 kg, 1 m/s)
Raindrop (0.001 kg, 9 m/s)
Penny (0.0025 kg, 11 m/s)
Marble (0.005 kg, 18 m/s)
Golf Ball (0.046 kg, 32 m/s)
Tennis Ball (0.057 kg, 28 m/s)
Large Hailstone (0.02 kg, 25 m/s)
Baseball (0.145 kg, 45 m/s)
Basketball (0.62 kg, 20 m/s)
Bowling Ball (7.26 kg, 35 m/s)
Object 2 (Right)
Feather (0.002 kg, 1 m/s)
Raindrop (0.001 kg, 9 m/s)
Penny (0.0025 kg, 11 m/s)
Marble (0.005 kg, 18 m/s)
Golf Ball (0.046 kg, 32 m/s)
Tennis Ball (0.057 kg, 28 m/s)
Large Hailstone (0.02 kg, 25 m/s)
Baseball (0.145 kg, 45 m/s)
Basketball (0.62 kg, 20 m/s)
Bowling Ball (7.26 kg, 35 m/s)
Environment
Earth (9.8 m/s², Air Resistance)
Earth Vacuum (9.8 m/s², No Air)
Moon (1.6 m/s², No Atmosphere)
Mars (3.7 m/s², Thin Atmosphere)
Jupiter (24.8 m/s², Dense Atmosphere)
Custom Environment
Gravity (m/s²)
Air Resistance Factor
1.0
0 = Vacuum, 1 = Earth atmosphere, 2 = Dense atmosphere
Drop Height
m
Start Simulation
Reset
Comparison Results
Velocity vs Time
Distance vs Time
Height vs Time
Acceleration vs Time
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