noun A maneuver in which a spacecraft uses the resistance of a planet's atmosphere to slow down or adjust its trajectory
Aerobraking is a cost-effective method for adjusting the trajectory of spacecraft and reducing fuel consumption during missions to other planets.
Aerobraking is a spaceflight maneuver that reduces the high point of an elliptical orbit by flying through the atmosphere at the low point of the orbit, using drag to slow down the spacecraft.
Aerobraking is a technique used to save fuel and extend the operational life of spacecraft by utilizing atmospheric drag for orbital maneuvers.
Aerobraking is employed by spacecraft entering a planet's atmosphere to slow down and achieve orbit without using additional fuel for propulsion.
Aerobraking is used to change the orbit of a spacecraft by utilizing atmospheric drag to reduce velocity and adjust the trajectory.
Aerospace engineers use aerobraking as a technique to slow down spacecraft by using atmospheric drag to reduce speed and adjust trajectory without using additional fuel.
Astronomers use aerobraking to study the atmospheres of planets and moons by analyzing the effects of drag on spacecraft during the braking process.
Astrophysicists study the dynamics of aerobraking maneuvers to better understand the interactions between spacecraft and planetary atmospheres.
Space mission planners incorporate aerobraking into mission design to optimize fuel efficiency and extend the operational life of spacecraft by utilizing atmospheric drag for orbital adjustments.
Satellite engineers use aerobraking to control the descent of satellites into specific orbits or to deorbit satellites at the end of their operational life.
Flight dynamics specialists analyze aerobraking maneuvers to ensure the safe and efficient operation of spacecraft during atmospheric entry and descent.
Planetary scientists study the effects of aerobraking on planetary exploration missions to gather data on atmospheric composition and dynamics.
Spacecraft operators utilize aerobraking techniques to manage the orbital trajectory and positioning of spacecraft for various missions, including planetary exploration and satellite deployment.