Calculateur de Chute Libre

Temps, Hauteur et Vitesse

Paramètres de Chute Libre

m
m/s²

Par défaut: 9.81 m/s² (Terre)

Formules de Chute Libre

t = √(2h/g)

h = ½gt²

v = gt

Note

Ce calculateur suppose qu'il n'y a pas de résistance de l'air. Les résultats réels peuvent varier en raison des forces de traînée.

Exemples de Chutes

Bâtiment de 10 Étages
~30 m → 2.5 seconds
Parachutisme (initial)
4000 m → 28.6 seconds
Plongeon de Falaise
20 m → 2.0 seconds

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About Free Fall Calculator

Free fall is the motion of an object under the influence of gravity alone, with no air resistance. This calculator helps you determine the time, height, and velocity of objects in free fall using fundamental physics equations.

What is Free Fall?

La chute libre est un mouvement sous la seule gravité, sans résistance de l'air. Tous les objets tombent au même rythme quelle que soit leur masse.

  • Accélération constante (g)
  • La vitesse augmente linéairement
  • Indépendant de la masse

Free Fall Equations

The calculator uses three fundamental equations of motion:

  • Time from height: t = √(2h/g) - Calculate how long an object takes to fall from a given height
  • Height from time: h = ½gt² - Calculate the distance fallen after a specific time
  • Final velocity: v = gt - Calculate the velocity reached after falling for time t

Where g is the gravitational acceleration (9.81 m/s² on Earth), h is height, t is time, and v is velocity.

Applications

  • Physics Experiments: Expériences de physique - Verify gravitational laws and motion principles
  • Safety Calculations: Calculs de sécurité - Determine fall times and impact velocities for safety planning
  • Extreme Sports: Parachutisme et saut en BASE - Calculate free fall parameters for skydivers
  • Engineering Design: Conception technique - Design safety systems and impact protection
  • Ballistics: Balistique - Analyze projectile motion and trajectories

How to Use This Calculator

  1. Select what you want to calculate (time, height, or both from velocity)
  2. Choose your preferred height unit (meters or feet)
  3. Enter the known value (height, time, or velocity)
  4. Adjust gravitational acceleration if needed (default is Earth's gravity)
  5. Click Calculate to see detailed results including final velocity and calculation steps

Important Notes

This calculator assumes ideal conditions with no air resistance. In reality, air drag significantly affects falling objects, especially at higher velocities. Terminal velocity (the maximum speed reached when air resistance equals gravitational force) is not accounted for in these calculations. For real-world applications involving air resistance, more complex models are required.