Calculateur de Période Orbitale Gratuit

Calculez la période orbitale d'un corps en orbite autour d'un autre.

m
kg

Période orbitale

31,554,223.24 s

Period in Days365.2109 days
Period in Years0.999893 yr

Orbital Period vs Semi-Major Axis

Voir la formule

Formule

How the Orbital Period Is Calculated

The orbital period is the time a body takes to complete one full orbit around a central mass.

Kepler's Third Law (Generalized)

T = 2π √(a³ / (G M))

  • *a* is the semi-major axis of the orbit (metres)
  • *G* is the gravitational constant, 6.674 × 10⁻¹¹ N m² kg⁻²
  • *M* is the mass of the central body (kg)

    • This assumes the orbiting body's mass is negligible compared to the central body.

    Exemple Résolu

    Find the orbital period of Earth around the Sun (a = 1.496e11 m, M = 1.989e30 kg).

    1. 01T = 2π √(a³ / (G M))
    2. 02a³ = (1.496e11)³ = 3.348e33 m³
    3. 03G M = 6.674e-11 × 1.989e30 = 1.327e20
    4. 04a³ / (G M) = 2.524e13
    5. 05T = 2π × √(2.524e13) ≈ 3.156e7 s ≈ 365.25 days

    Questions Fréquentes

    Does the orbiting body's mass affect the period?

    For most situations the orbiting body is far less massive than the central body, so its contribution is negligible. For a binary of comparable masses, replace M with (M1 + M2).

    What shape of orbit does this assume?

    The formula applies to any Keplerian elliptical orbit. The semi-major axis alone determines the period regardless of eccentricity.

    How accurate is this for real solar-system bodies?

    Accurate to better than 0.01% for planets, with tiny deviations from perturbations and relativistic effects.

    Calculatrices Associées

    Orbital Velocity Calculator

    Find the speed of an object in a circular orbit.

    Kepler's Third Law Calculator

    Relate orbital period to semi-major axis.

    Gravitational Acceleration Calculator

    Compute surface gravity of a celestial body.