Calculadora de Velocidad por Asistencia Gravitatoria Gratis
Calcula el cambio de velocidad obtenido mediante una maniobra de asistencia gravitatoria.
Max Speed Change
18,483.77 m/s
Max Speed Change vs Planet Orbital Velocity
Fórmula
## Gravity Assist (Slingshot) Effect A spacecraft flying past a planet can gain or lose speed by exchanging momentum with the planet. ### Maximum Speed Change **dv = 2 * v_planet * sin(theta/2)** - *v_planet* = planet's orbital velocity around the Sun - *theta* = total bending angle of the flyby trajectory The theoretical maximum (theta = 180 degrees) gives dv = 2 * v_planet.
Ejemplo Resuelto
Jupiter flyby: v_planet = 13 070 m/s, bending angle = 90 degrees.
- 01dv = 2 * v_planet * sin(theta/2)
- 02dv = 2 * 13070 * sin(45 deg)
- 03dv = 26140 * 0.7071
- 04dv = 18 483 m/s = 18.48 km/s
Preguntas Frecuentes
Does the planet lose energy in a gravity assist?
Yes, but by an immeasurably tiny amount. The planet's enormous mass makes its velocity change negligible.
Can gravity assists slow a spacecraft down?
Yes. By flying in front of the planet (against its orbital motion), the spacecraft transfers energy to the planet and slows down. This was used by Messenger at Venus.
Why is Jupiter the best planet for gravity assists?
Jupiter has the highest orbital velocity times the largest gravity well, offering the most speed change per flyby.